meilisearch/meilidb-core/src/query_builder.rs

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use hashbrown::HashMap;
use std::hash::Hash;
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use std::mem;
use std::ops::Range;
use std::rc::Rc;
use std::time::{Instant, Duration};
use fst::{IntoStreamer, Streamer};
use sdset::SetBuf;
use slice_group_by::{GroupBy, GroupByMut};
use crate::automaton::{Automaton, AutomatonProducer, QueryEnhancer};
use crate::distinct_map::{DistinctMap, BufferedDistinctMap};
use crate::raw_document::{RawDocument, raw_documents_from};
use crate::{Document, DocumentId, Highlight, TmpMatch, criterion::Criteria};
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use crate::{store, MResult, reordered_attrs::ReorderedAttrs};
pub struct QueryBuilder<'c, FI = fn(DocumentId) -> bool> {
criteria: Criteria<'c>,
searchable_attrs: Option<ReorderedAttrs>,
filter: Option<FI>,
timeout: Option<Duration>,
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main_store: store::Main,
postings_lists_store: store::PostingsLists,
synonyms_store: store::Synonyms,
}
fn multiword_rewrite_matches(
mut matches: Vec<(DocumentId, TmpMatch)>,
query_enhancer: &QueryEnhancer,
) -> SetBuf<(DocumentId, TmpMatch)>
{
let mut padded_matches = Vec::with_capacity(matches.len());
// we sort the matches by word index to make them rewritable
matches.sort_unstable_by_key(|(id, match_)| (*id, match_.attribute, match_.word_index));
// for each attribute of each document
for same_document_attribute in matches.linear_group_by_key(|(id, m)| (*id, m.attribute)) {
// padding will only be applied
// to word indices in the same attribute
let mut padding = 0;
let mut iter = same_document_attribute.linear_group_by_key(|(_, m)| m.word_index);
// for each match at the same position
// in this document attribute
while let Some(same_word_index) = iter.next() {
// find the biggest padding
let mut biggest = 0;
for (id, match_) in same_word_index {
let mut replacement = query_enhancer.replacement(match_.query_index);
let replacement_len = replacement.len();
let nexts = iter.remainder().linear_group_by_key(|(_, m)| m.word_index);
if let Some(query_index) = replacement.next() {
let word_index = match_.word_index + padding as u16;
let match_ = TmpMatch { query_index, word_index, ..match_.clone() };
padded_matches.push((*id, match_));
}
let mut found = false;
// look ahead and if there already is a match
// corresponding to this padding word, abort the padding
'padding: for (x, next_group) in nexts.enumerate() {
for (i, query_index) in replacement.clone().enumerate().skip(x) {
let word_index = match_.word_index + padding as u16 + (i + 1) as u16;
let padmatch = TmpMatch { query_index, word_index, ..match_.clone() };
for (_, nmatch_) in next_group {
let mut rep = query_enhancer.replacement(nmatch_.query_index);
let query_index = rep.next().unwrap();
if query_index == padmatch.query_index {
if !found {
// if we find a corresponding padding for the
// first time we must push preceding paddings
for (i, query_index) in replacement.clone().enumerate().take(i) {
let word_index = match_.word_index + padding as u16 + (i + 1) as u16;
let match_ = TmpMatch { query_index, word_index, ..match_.clone() };
padded_matches.push((*id, match_));
biggest = biggest.max(i + 1);
}
}
padded_matches.push((*id, padmatch));
found = true;
continue 'padding;
}
}
}
// if we do not find a corresponding padding in the
// next groups so stop here and pad what was found
break
}
if !found {
// if no padding was found in the following matches
// we must insert the entire padding
for (i, query_index) in replacement.enumerate() {
let word_index = match_.word_index + padding as u16 + (i + 1) as u16;
let match_ = TmpMatch { query_index, word_index, ..match_.clone() };
padded_matches.push((*id, match_));
}
biggest = biggest.max(replacement_len - 1);
}
}
padding += biggest;
}
}
for document_matches in padded_matches.linear_group_by_key_mut(|(id, _)| *id) {
document_matches.sort_unstable();
}
SetBuf::new_unchecked(padded_matches)
}
fn fetch_raw_documents(
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reader: &impl rkv::Readable,
automatons: &[Automaton],
query_enhancer: &QueryEnhancer,
searchables: Option<&ReorderedAttrs>,
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main_store: &store::Main,
postings_lists_store: &store::PostingsLists,
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) -> MResult<Vec<RawDocument>>
{
let mut matches = Vec::new();
let mut highlights = Vec::new();
for automaton in automatons {
let Automaton { index, is_exact, query_len, .. } = automaton;
let dfa = automaton.dfa();
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let words = match main_store.words_fst(reader)? {
Some(words) => words,
None => return Ok(Vec::new()),
};
let mut stream = words.search(&dfa).into_stream();
while let Some(input) = stream.next() {
let distance = dfa.eval(input).to_u8();
let is_exact = *is_exact && distance == 0 && input.len() == *query_len;
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let doc_indexes = match postings_lists_store.postings_list(reader, input)? {
Some(doc_indexes) => doc_indexes,
None => continue,
};
matches.reserve(doc_indexes.len());
highlights.reserve(doc_indexes.len());
for di in doc_indexes.as_ref() {
let attribute = searchables.map_or(Some(di.attribute), |r| r.get(di.attribute));
if let Some(attribute) = attribute {
let match_ = TmpMatch {
query_index: *index as u32,
distance,
attribute,
word_index: di.word_index,
is_exact,
};
let highlight = Highlight {
attribute: di.attribute,
char_index: di.char_index,
char_length: di.char_length,
};
matches.push((di.document_id, match_));
highlights.push((di.document_id, highlight));
}
}
}
}
let matches = multiword_rewrite_matches(matches, &query_enhancer);
let highlights = {
highlights.sort_unstable_by_key(|(id, _)| *id);
SetBuf::new_unchecked(highlights)
};
Ok(raw_documents_from(matches, highlights))
}
impl<'c> QueryBuilder<'c> {
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pub fn new(
main: store::Main,
postings_lists: store::PostingsLists,
synonyms: store::Synonyms,
) -> QueryBuilder<'c>
{
QueryBuilder::with_criteria(main, postings_lists, synonyms, Criteria::default())
}
pub fn with_criteria(
main: store::Main,
postings_lists: store::PostingsLists,
synonyms: store::Synonyms,
criteria: Criteria<'c>,
) -> QueryBuilder<'c>
{
QueryBuilder {
criteria,
searchable_attrs: None,
filter: None,
timeout: None,
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main_store: main,
postings_lists_store: postings_lists,
synonyms_store: synonyms,
}
}
}
impl<'c, FI> QueryBuilder<'c, FI> {
pub fn with_filter<F>(self, function: F) -> QueryBuilder<'c, F>
where F: Fn(DocumentId) -> bool,
{
QueryBuilder {
criteria: self.criteria,
searchable_attrs: self.searchable_attrs,
filter: Some(function),
timeout: self.timeout,
main_store: self.main_store,
postings_lists_store: self.postings_lists_store,
synonyms_store: self.synonyms_store,
}
}
pub fn with_fetch_timeout(self, timeout: Duration) -> QueryBuilder<'c, FI> {
QueryBuilder { timeout: Some(timeout), ..self }
}
pub fn with_distinct<F, K>(self, function: F, size: usize) -> DistinctQueryBuilder<'c, FI, F>
where F: Fn(DocumentId) -> Option<K>,
K: Hash + Eq,
{
DistinctQueryBuilder { inner: self, function, size }
}
pub fn add_searchable_attribute(&mut self, attribute: u16) {
let reorders = self.searchable_attrs.get_or_insert_with(ReorderedAttrs::new);
reorders.insert_attribute(attribute);
}
}
impl<FI> QueryBuilder<'_, FI> where FI: Fn(DocumentId) -> bool {
pub fn query(
self,
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reader: &impl rkv::Readable,
query: &str,
range: Range<usize>,
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) -> MResult<Vec<Document>>
{
// We delegate the filter work to the distinct query builder,
// specifying a distinct rule that has no effect.
if self.filter.is_some() {
let builder = self.with_distinct(|_| None as Option<()>, 1);
return builder.query(reader, query, range);
}
let start_processing = Instant::now();
let mut raw_documents_processed = Vec::with_capacity(range.len());
let (automaton_producer, query_enhancer) = AutomatonProducer::new(
reader,
query,
self.main_store,
self.synonyms_store,
)?;
let mut automaton_producer = automaton_producer.into_iter();
let mut automatons = Vec::new();
// aggregate automatons groups by groups after time
while let Some(auts) = automaton_producer.next() {
automatons.extend(auts);
// we must retrieve the documents associated
// with the current automatons
let mut raw_documents = fetch_raw_documents(
reader,
&automatons,
&query_enhancer,
self.searchable_attrs.as_ref(),
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&self.main_store,
&self.postings_lists_store,
)?;
// stop processing when time is running out
if let Some(timeout) = self.timeout {
if !raw_documents_processed.is_empty() && start_processing.elapsed() > timeout {
break
}
}
let mut groups = vec![raw_documents.as_mut_slice()];
'criteria: for criterion in self.criteria.as_ref() {
let tmp_groups = mem::replace(&mut groups, Vec::new());
let mut documents_seen = 0;
for group in tmp_groups {
// if this group does not overlap with the requested range,
// push it without sorting and splitting it
if documents_seen + group.len() < range.start {
documents_seen += group.len();
groups.push(group);
continue;
}
group.sort_unstable_by(|a, b| criterion.evaluate(a, b));
for group in group.binary_group_by_mut(|a, b| criterion.eq(a, b)) {
documents_seen += group.len();
groups.push(group);
// we have sort enough documents if the last document sorted is after
// the end of the requested range, we can continue to the next criterion
if documents_seen >= range.end { continue 'criteria }
}
}
}
// once we classified the documents related to the current
// automatons we save that as the next valid result
let iter = raw_documents.into_iter().skip(range.start).take(range.len());
raw_documents_processed.clear();
raw_documents_processed.extend(iter);
// stop processing when time is running out
if let Some(timeout) = self.timeout {
if start_processing.elapsed() > timeout { break }
}
}
// make real documents now that we know
// those must be returned
let documents = raw_documents_processed
.into_iter()
.map(|d| Document::from_raw(d))
.collect();
Ok(documents)
}
}
pub struct DistinctQueryBuilder<'c, FI, FD> {
inner: QueryBuilder<'c, FI>,
function: FD,
size: usize,
}
impl<'c, FI, FD> DistinctQueryBuilder<'c, FI, FD> {
pub fn with_filter<F>(self, function: F) -> DistinctQueryBuilder<'c, F, FD>
where F: Fn(DocumentId) -> bool,
{
DistinctQueryBuilder {
inner: self.inner.with_filter(function),
function: self.function,
size: self.size,
}
}
pub fn with_fetch_timeout(self, timeout: Duration) -> DistinctQueryBuilder<'c, FI, FD> {
DistinctQueryBuilder {
inner: self.inner.with_fetch_timeout(timeout),
function: self.function,
size: self.size,
}
}
pub fn add_searchable_attribute(&mut self, attribute: u16) {
self.inner.add_searchable_attribute(attribute);
}
}
impl<'c, FI, FD, K> DistinctQueryBuilder<'c, FI, FD>
where FI: Fn(DocumentId) -> bool,
FD: Fn(DocumentId) -> Option<K>,
K: Hash + Eq,
{
pub fn query(
self,
reader: &impl rkv::Readable,
query: &str,
range: Range<usize>,
) -> MResult<Vec<Document>>
{
let start_processing = Instant::now();
let mut raw_documents_processed = Vec::new();
let (automaton_producer, query_enhancer) = AutomatonProducer::new(
reader,
query,
self.inner.main_store,
self.inner.synonyms_store,
)?;
let mut automaton_producer = automaton_producer.into_iter();
let mut automatons = Vec::new();
// aggregate automatons groups by groups after time
while let Some(auts) = automaton_producer.next() {
automatons.extend(auts);
// we must retrieve the documents associated
// with the current automatons
let mut raw_documents = fetch_raw_documents(
reader,
&automatons,
&query_enhancer,
self.inner.searchable_attrs.as_ref(),
&self.inner.main_store,
&self.inner.postings_lists_store,
)?;
// stop processing when time is running out
if let Some(timeout) = self.inner.timeout {
if !raw_documents_processed.is_empty() && start_processing.elapsed() > timeout {
break
}
}
let mut groups = vec![raw_documents.as_mut_slice()];
let mut key_cache = HashMap::new();
let mut filter_map = HashMap::new();
// these two variables informs on the current distinct map and
// on the raw offset of the start of the group where the
// range.start bound is located according to the distinct function
let mut distinct_map = DistinctMap::new(self.size);
let mut distinct_raw_offset = 0;
'criteria: for criterion in self.inner.criteria.as_ref() {
let tmp_groups = mem::replace(&mut groups, Vec::new());
let mut buf_distinct = BufferedDistinctMap::new(&mut distinct_map);
let mut documents_seen = 0;
for group in tmp_groups {
// if this group does not overlap with the requested range,
// push it without sorting and splitting it
if documents_seen + group.len() < distinct_raw_offset {
documents_seen += group.len();
groups.push(group);
continue;
}
group.sort_unstable_by(|a, b| criterion.evaluate(a, b));
for group in group.binary_group_by_mut(|a, b| criterion.eq(a, b)) {
// we must compute the real distinguished len of this sub-group
for document in group.iter() {
let filter_accepted = match &self.inner.filter {
Some(filter) => {
let entry = filter_map.entry(document.id);
*entry.or_insert_with(|| (filter)(document.id))
},
None => true,
};
if filter_accepted {
let entry = key_cache.entry(document.id);
let key = entry.or_insert_with(|| (self.function)(document.id).map(Rc::new));
match key.clone() {
Some(key) => buf_distinct.register(key),
None => buf_distinct.register_without_key(),
};
}
// the requested range end is reached: stop computing distinct
if buf_distinct.len() >= range.end { break }
}
documents_seen += group.len();
groups.push(group);
// if this sub-group does not overlap with the requested range
// we must update the distinct map and its start index
if buf_distinct.len() < range.start {
buf_distinct.transfert_to_internal();
distinct_raw_offset = documents_seen;
}
// we have sort enough documents if the last document sorted is after
// the end of the requested range, we can continue to the next criterion
if buf_distinct.len() >= range.end { continue 'criteria }
}
}
}
// once we classified the documents related to the current
// automatons we save that as the next valid result
let mut seen = BufferedDistinctMap::new(&mut distinct_map);
raw_documents_processed.clear();
for document in raw_documents.into_iter().skip(distinct_raw_offset) {
let filter_accepted = match &self.inner.filter {
Some(_) => filter_map.remove(&document.id).unwrap(),
None => true,
};
if filter_accepted {
let key = key_cache.remove(&document.id).unwrap();
let distinct_accepted = match key {
Some(key) => seen.register(key),
None => seen.register_without_key(),
};
if distinct_accepted && seen.len() > range.start {
raw_documents_processed.push(document);
if raw_documents_processed.len() == range.len() { break }
}
}
}
// stop processing when time is running out
if let Some(timeout) = self.inner.timeout {
if start_processing.elapsed() > timeout { break }
}
}
// make real documents now that we know
// those must be returned
let documents = raw_documents_processed
.into_iter()
.map(|d| Document::from_raw(d))
.collect();
Ok(documents)
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::collections::{BTreeSet, HashMap};
use std::iter::FromIterator;
use fst::{Set, IntoStreamer};
use sdset::SetBuf;
use tempfile::TempDir;
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use crate::automaton::normalize_str;
use crate::database::{Database, BoxUpdateFn};
use crate::DocIndex;
use crate::store::Index;
fn set_from_stream<'f, I, S>(stream: I) -> Set
where
I: for<'a> fst::IntoStreamer<'a, Into=S, Item=&'a [u8]>,
S: 'f + for<'a> fst::Streamer<'a, Item=&'a [u8]>,
{
let mut builder = fst::SetBuilder::memory();
builder.extend_stream(stream).unwrap();
builder.into_inner().and_then(Set::from_bytes).unwrap()
}
fn insert_key(set: &Set, key: &[u8]) -> Set {
let unique_key = {
let mut builder = fst::SetBuilder::memory();
builder.insert(key).unwrap();
builder.into_inner().and_then(Set::from_bytes).unwrap()
};
let union_ = set.op().add(unique_key.into_stream()).r#union();
set_from_stream(union_)
}
fn sdset_into_fstset(set: &sdset::Set<&str>) -> Set {
let mut builder = fst::SetBuilder::memory();
let set = SetBuf::from_dirty(set.into_iter().map(|s| normalize_str(s)).collect());
builder.extend_iter(set.into_iter()).unwrap();
builder.into_inner().and_then(Set::from_bytes).unwrap()
}
const fn doc_index(document_id: u64, word_index: u16) -> DocIndex {
DocIndex {
document_id: DocumentId(document_id),
attribute: 0,
word_index,
char_index: 0,
char_length: 0,
}
}
const fn doc_char_index(document_id: u64, word_index: u16, char_index: u16) -> DocIndex {
DocIndex {
document_id: DocumentId(document_id),
attribute: 0,
word_index,
char_index,
char_length: 0,
}
}
pub struct TempDatabase {
database: Database,
index: Index,
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_tempdir: TempDir,
}
impl TempDatabase {
pub fn query_builder(&self) -> QueryBuilder {
self.index.query_builder()
}
pub fn add_synonym(&mut self, word: &str, new: SetBuf<&str>) {
let rkv = self.database.rkv.read().unwrap();
let mut writer = rkv.write().unwrap();
let word = word.to_lowercase();
let alternatives = match self.index.synonyms.synonyms(&writer, word.as_bytes()).unwrap() {
Some(alternatives) => alternatives,
None => fst::Set::default(),
};
let new = sdset_into_fstset(&new);
let new_alternatives = set_from_stream(alternatives.op().add(new.into_stream()).r#union());
self.index.synonyms.put_synonyms(&mut writer, word.as_bytes(), &new_alternatives).unwrap();
let synonyms = match self.index.main.synonyms_fst(&writer).unwrap() {
Some(synonyms) => synonyms,
None => fst::Set::default(),
};
let synonyms_fst = insert_key(&synonyms, word.as_bytes());
self.index.main.put_synonyms_fst(&mut writer, &synonyms_fst).unwrap();
writer.commit().unwrap();
}
}
impl<'a> FromIterator<(&'a str, &'a [DocIndex])> for TempDatabase {
fn from_iter<I: IntoIterator<Item=(&'a str, &'a [DocIndex])>>(iter: I) -> Self {
let tempdir = TempDir::new().unwrap();
let database = Database::open_or_create(&tempdir).unwrap();
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let update_fn = None as Option::<BoxUpdateFn>;
let index = database.open_index("default", update_fn).unwrap();
let rkv = database.rkv.read().unwrap();
let mut writer = rkv.write().unwrap();
let mut words_fst = BTreeSet::new();
let mut postings_lists = HashMap::new();
for (word, indexes) in iter {
let word = word.to_lowercase().into_bytes();
words_fst.insert(word.clone());
postings_lists.entry(word).or_insert_with(Vec::new).extend_from_slice(indexes);
}
let words_fst = Set::from_iter(words_fst).unwrap();
index.main.put_words_fst(&mut writer, &words_fst).unwrap();
for (word, postings_list) in postings_lists {
let postings_list = SetBuf::from_dirty(postings_list);
index.postings_lists.put_postings_list(&mut writer, &word, &postings_list).unwrap();
}
writer.commit().unwrap();
drop(rkv);
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TempDatabase { database, index, _tempdir: tempdir }
}
}
#[test]
fn simple() {
let store = TempDatabase::from_iter(vec![
("iphone", &[doc_char_index(0, 0, 0)][..]),
("from", &[doc_char_index(0, 1, 1)][..]),
("apple", &[doc_char_index(0, 2, 2)][..]),
]);
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "iphone from apple", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, .. }));
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
fn simple_synonyms() {
let mut store = TempDatabase::from_iter(vec![
("hello", &[doc_index(0, 0)][..]),
]);
store.add_synonym("bonjour", SetBuf::from_dirty(vec!["hello"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "hello", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "bonjour", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
fn prefix_synonyms() {
let mut store = TempDatabase::from_iter(vec![
("hello", &[doc_index(0, 0)][..]),
]);
store.add_synonym("bonjour", SetBuf::from_dirty(vec!["hello"]));
store.add_synonym("salut", SetBuf::from_dirty(vec!["hello"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "sal", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "bonj", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "sal blabla", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "bonj blabla", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), None);
}
#[test]
fn levenshtein_synonyms() {
let mut store = TempDatabase::from_iter(vec![
("hello", &[doc_index(0, 0)][..]),
]);
store.add_synonym("salutation", SetBuf::from_dirty(vec!["hello"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "salutution", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "saluttion", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
fn harder_synonyms() {
let mut store = TempDatabase::from_iter(vec![
("hello", &[doc_index(0, 0)][..]),
("bonjour", &[doc_index(1, 3)]),
("salut", &[doc_index(2, 5)]),
]);
store.add_synonym("hello", SetBuf::from_dirty(vec!["bonjour", "salut"]));
store.add_synonym("bonjour", SetBuf::from_dirty(vec!["hello", "salut"]));
store.add_synonym("salut", SetBuf::from_dirty(vec!["hello", "bonjour"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "hello", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 3, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(2), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 5, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "bonjour", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 3, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(2), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 5, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "salut", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 3, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(2), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 5, .. }));
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
/// Unique word has multi-word synonyms
fn unique_to_multiword_synonyms() {
let mut store = TempDatabase::from_iter(vec![
("new", &[doc_char_index(0, 0, 0)][..]),
("york", &[doc_char_index(0, 1, 1)][..]),
("city", &[doc_char_index(0, 2, 2)][..]),
("subway", &[doc_char_index(0, 3, 3)][..]),
("NY", &[doc_char_index(1, 0, 0)][..]),
("subway", &[doc_char_index(1, 1, 1)][..]),
]);
store.add_synonym("NY", SetBuf::from_dirty(vec!["NYC", "new york", "new york city"]));
store.add_synonym("NYC", SetBuf::from_dirty(vec!["NY", "new york", "new york city"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "NY subway", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NY ± new
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // NY ± york
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // NY ± city
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // subway
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // subway
assert_matches!(iter.next(), None); // position rewritten ^
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "NYC subway", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NYC ± new
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // NYC ± york
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // NYC ± city
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // subway
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // subway
assert_matches!(iter.next(), None); // position rewritten ^
});
assert_matches!(iter.next(), None);
}
#[test]
fn unique_to_multiword_synonyms_words_proximity() {
let mut store = TempDatabase::from_iter(vec![
("new", &[doc_char_index(0, 0, 0)][..]),
("york", &[doc_char_index(0, 1, 1)][..]),
("city", &[doc_char_index(0, 2, 2)][..]),
("subway", &[doc_char_index(0, 3, 3)][..]),
("york", &[doc_char_index(1, 0, 0)][..]),
("new", &[doc_char_index(1, 1, 1)][..]),
("subway", &[doc_char_index(1, 2, 2)][..]),
("NY", &[doc_char_index(2, 0, 0)][..]),
("subway", &[doc_char_index(2, 1, 1)][..]),
]);
store.add_synonym("NY", SetBuf::from_dirty(vec!["york new"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "NY", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(2), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. })); // NY ± york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, .. })); // NY ± new
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. })); // york = NY
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, .. })); // new = NY
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 1, .. })); // york = NY
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 0, .. })); // new = NY
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "new york", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, .. })); // york
assert_matches!(matches.next(), None); // position rewritten ^
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 1, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 0, .. })); // new
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
fn unique_to_multiword_synonyms_cumulative_word_index() {
let mut store = TempDatabase::from_iter(vec![
("NY", &[doc_char_index(0, 0, 0)][..]),
("subway", &[doc_char_index(0, 1, 1)][..]),
("new", &[doc_char_index(1, 0, 0)][..]),
("york", &[doc_char_index(1, 1, 1)][..]),
("subway", &[doc_char_index(1, 2, 2)][..]),
]);
store.add_synonym("new york", SetBuf::from_dirty(vec!["NY"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "NY subway", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NY
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // subway
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 2, is_exact: true, .. })); // subway
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "new york subway", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new = NY
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york = NY
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // subway
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // subway
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
/// Unique word has multi-word synonyms
fn harder_unique_to_multiword_synonyms_one() {
let mut store = TempDatabase::from_iter(vec![
("new", &[doc_char_index(0, 0, 0)][..]),
("york", &[doc_char_index(0, 1, 1)][..]),
("city", &[doc_char_index(0, 2, 2)][..]),
("yellow", &[doc_char_index(0, 3, 3)][..]),
("subway", &[doc_char_index(0, 4, 4)][..]),
("broken", &[doc_char_index(0, 5, 5)][..]),
("NY", &[doc_char_index(1, 0, 0)][..]),
("blue", &[doc_char_index(1, 1, 1)][..]),
("subway", &[doc_char_index(1, 2, 2)][..]),
]);
store.add_synonym("NY", SetBuf::from_dirty(vec!["NYC", "new york", "new york city"]));
store.add_synonym("NYC", SetBuf::from_dirty(vec!["NY", "new york", "new york city"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "NY subway", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // city = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: true, .. })); // subway
assert_matches!(iter.next(), None); // position rewritten ^
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: true, .. })); // subway
assert_matches!(iter.next(), None); // position rewritten ^
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "NYC subway", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // NYC
// because one-word to one-word ^^^^
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: true, .. })); // subway
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: true, .. })); // subway
assert_matches!(iter.next(), None); // position rewritten ^
});
assert_matches!(iter.next(), None);
}
#[test]
/// Unique word has multi-word synonyms
fn even_harder_unique_to_multiword_synonyms() {
let mut store = TempDatabase::from_iter(vec![
("new", &[doc_char_index(0, 0, 0)][..]),
("york", &[doc_char_index(0, 1, 1)][..]),
("city", &[doc_char_index(0, 2, 2)][..]),
("yellow", &[doc_char_index(0, 3, 3)][..]),
("underground", &[doc_char_index(0, 4, 4)][..]),
("train", &[doc_char_index(0, 5, 5)][..]),
("broken", &[doc_char_index(0, 6, 6)][..]),
("NY", &[doc_char_index(1, 0, 0)][..]),
("blue", &[doc_char_index(1, 1, 1)][..]),
("subway", &[doc_char_index(1, 2, 2)][..]),
]);
store.add_synonym("NY", SetBuf::from_dirty(vec!["NYC", "new york", "new york city"]));
store.add_synonym("NYC", SetBuf::from_dirty(vec!["NY", "new york", "new york city"]));
store.add_synonym("subway", SetBuf::from_dirty(vec!["underground train"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "NY subway broken", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: false, .. })); // underground = subway
assert_matches!(iter.next(), Some(TmpMatch { query_index: 4, word_index: 5, is_exact: false, .. })); // train = subway
assert_matches!(iter.next(), Some(TmpMatch { query_index: 5, word_index: 6, is_exact: true, .. })); // broken
assert_matches!(iter.next(), None); // position rewritten ^
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // city = NY
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: true, .. })); // underground = subway
assert_matches!(iter.next(), Some(TmpMatch { query_index: 4, word_index: 5, is_exact: true, .. })); // train = subway
assert_matches!(iter.next(), None); // position rewritten ^
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "NYC subway", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // city = NYC
// because one-word to one-word ^^^^
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: true, .. })); // underground = subway
assert_matches!(iter.next(), Some(TmpMatch { query_index: 4, word_index: 5, is_exact: true, .. })); // train = subway
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city = NYC
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: false, .. })); // underground = subway
assert_matches!(iter.next(), Some(TmpMatch { query_index: 4, word_index: 5, is_exact: false, .. })); // train = subway
assert_matches!(iter.next(), None); // position rewritten ^
});
assert_matches!(iter.next(), None);
}
#[test]
/// Multi-word has multi-word synonyms
fn multiword_to_multiword_synonyms() {
let mut store = TempDatabase::from_iter(vec![
("NY", &[doc_char_index(0, 0, 0)][..]),
("subway", &[doc_char_index(0, 1, 1)][..]),
("NYC", &[doc_char_index(1, 0, 0)][..]),
("blue", &[doc_char_index(1, 1, 1)][..]),
("subway", &[doc_char_index(1, 2, 2)][..]),
("broken", &[doc_char_index(1, 3, 3)][..]),
("new", &[doc_char_index(2, 0, 0)][..]),
("york", &[doc_char_index(2, 1, 1)][..]),
("underground", &[doc_char_index(2, 2, 2)][..]),
("train", &[doc_char_index(2, 3, 3)][..]),
("broken", &[doc_char_index(2, 4, 4)][..]),
]);
store.add_synonym("new york", SetBuf::from_dirty(vec![ "NYC", "NY", "new york city" ]));
store.add_synonym("new york city", SetBuf::from_dirty(vec![ "NYC", "NY", "new york" ]));
store.add_synonym("underground train", SetBuf::from_dirty(vec![ "subway" ]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "new york underground train broken", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(2), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // city
assert_matches!(matches.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // underground
assert_matches!(matches.next(), Some(TmpMatch { query_index: 4, word_index: 4, is_exact: true, .. })); // train
assert_matches!(matches.next(), Some(TmpMatch { query_index: 5, word_index: 5, is_exact: true, .. })); // broken
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NYC = new
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // NYC = york
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // NYC = city
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: true, .. })); // subway = underground
assert_matches!(iter.next(), Some(TmpMatch { query_index: 4, word_index: 5, is_exact: true, .. })); // subway = train
assert_matches!(iter.next(), Some(TmpMatch { query_index: 5, word_index: 6, is_exact: true, .. })); // broken
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NY = new
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // NY = york
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // NY = city
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // subway = underground
assert_matches!(iter.next(), Some(TmpMatch { query_index: 4, word_index: 4, is_exact: true, .. })); // subway = train
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "new york city underground train broken", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(2), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city
assert_matches!(matches.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // underground
assert_matches!(matches.next(), Some(TmpMatch { query_index: 4, word_index: 4, is_exact: true, .. })); // train
assert_matches!(matches.next(), Some(TmpMatch { query_index: 5, word_index: 5, is_exact: true, .. })); // broken
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NYC = new
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NYC = new
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // NYC = york
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // NYC = york
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // NYC = city
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 4, is_exact: true, .. })); // subway = underground
assert_matches!(iter.next(), Some(TmpMatch { query_index: 4, word_index: 5, is_exact: true, .. })); // subway = train
assert_matches!(iter.next(), Some(TmpMatch { query_index: 5, word_index: 6, is_exact: true, .. })); // broken
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NY = new
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // NY = new
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // NY = york
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // NY = york
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // NY = city
assert_matches!(iter.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // subway = underground
assert_matches!(iter.next(), Some(TmpMatch { query_index: 4, word_index: 4, is_exact: true, .. })); // subway = train
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
fn intercrossed_multiword_synonyms() {
let mut store = TempDatabase::from_iter(vec![
("new", &[doc_index(0, 0)][..]),
("york", &[doc_index(0, 1)][..]),
("big", &[doc_index(0, 2)][..]),
("city", &[doc_index(0, 3)][..]),
]);
store.add_synonym("new york", SetBuf::from_dirty(vec![ "new york city" ]));
store.add_synonym("new york city", SetBuf::from_dirty(vec![ "new york" ]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "new york big ", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: false, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // city
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 4, is_exact: false, .. })); // city
assert_matches!(matches.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // big
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
let mut store = TempDatabase::from_iter(vec![
("NY", &[doc_index(0, 0)][..]),
("city", &[doc_index(0, 1)][..]),
("subway", &[doc_index(0, 2)][..]),
("NY", &[doc_index(1, 0)][..]),
("subway", &[doc_index(1, 1)][..]),
("NY", &[doc_index(2, 0)][..]),
("york", &[doc_index(2, 1)][..]),
("city", &[doc_index(2, 2)][..]),
("subway", &[doc_index(2, 3)][..]),
]);
store.add_synonym("NY", SetBuf::from_dirty(vec!["new york city story"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "NY subway ", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // city
assert_matches!(matches.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // story
assert_matches!(matches.next(), Some(TmpMatch { query_index: 4, word_index: 4, is_exact: true, .. })); // subway
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // city
assert_matches!(matches.next(), Some(TmpMatch { query_index: 4, word_index: 3, is_exact: true, .. })); // subway
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(2), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: false, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: false, .. })); // city
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // city
assert_matches!(matches.next(), Some(TmpMatch { query_index: 4, word_index: 3, is_exact: true, .. })); // subway
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
fn cumulative_word_indices() {
let mut store = TempDatabase::from_iter(vec![
("NYC", &[doc_index(0, 0)][..]),
("long", &[doc_index(0, 1)][..]),
("subway", &[doc_index(0, 2)][..]),
("cool", &[doc_index(0, 3)][..]),
]);
store.add_synonym("new york city", SetBuf::from_dirty(vec!["NYC"]));
store.add_synonym("subway", SetBuf::from_dirty(vec!["underground train"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "new york city long subway cool ", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut matches = matches.into_iter();
assert_matches!(matches.next(), Some(TmpMatch { query_index: 0, word_index: 0, is_exact: true, .. })); // new = NYC
assert_matches!(matches.next(), Some(TmpMatch { query_index: 1, word_index: 1, is_exact: true, .. })); // york = NYC
assert_matches!(matches.next(), Some(TmpMatch { query_index: 2, word_index: 2, is_exact: true, .. })); // city = NYC
assert_matches!(matches.next(), Some(TmpMatch { query_index: 3, word_index: 3, is_exact: true, .. })); // long
assert_matches!(matches.next(), Some(TmpMatch { query_index: 4, word_index: 4, is_exact: true, .. })); // subway = underground
assert_matches!(matches.next(), Some(TmpMatch { query_index: 5, word_index: 5, is_exact: true, .. })); // subway = train
assert_matches!(matches.next(), Some(TmpMatch { query_index: 6, word_index: 6, is_exact: true, .. })); // cool
assert_matches!(matches.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
fn deunicoded_synonyms() {
let mut store = TempDatabase::from_iter(vec![
("telephone", &[doc_index(0, 0)][..]), // meilidb-data indexes the unidecoded
("téléphone", &[doc_index(0, 0)][..]), // and the original words with the same DocIndex
("iphone", &[doc_index(1, 0)][..]),
]);
store.add_synonym("téléphone", SetBuf::from_dirty(vec!["iphone"]));
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "telephone", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, .. }));
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, .. }));
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, .. }));
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "téléphone", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, .. }));
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, .. }));
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, .. }));
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), None);
let builder = store.query_builder();
let results = builder.query(&reader, "télephone", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(1), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, .. }));
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, distance: 1, word_index: 0, is_exact: false, .. })); // iphone
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, distance: 1, word_index: 0, is_exact: false, .. })); // téléphone
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), None);
}
#[test]
fn simple_concatenation() {
let store = TempDatabase::from_iter(vec![
("iphone", &[doc_index(0, 0)][..]),
("case", &[doc_index(0, 1)][..]),
]);
let rkv = store.database.rkv.read().unwrap();
let reader = rkv.read().unwrap();
let builder = store.query_builder();
let results = builder.query(&reader, "i phone case", 0..20).unwrap();
let mut iter = results.into_iter();
assert_matches!(iter.next(), Some(Document { id: DocumentId(0), matches, .. }) => {
let mut iter = matches.into_iter();
assert_matches!(iter.next(), Some(TmpMatch { query_index: 0, word_index: 0, distance: 0, .. })); // iphone
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 1, distance: 0, .. })); // iphone
assert_matches!(iter.next(), Some(TmpMatch { query_index: 1, word_index: 0, distance: 1, .. })); // phone
assert_matches!(iter.next(), Some(TmpMatch { query_index: 2, word_index: 2, distance: 0, .. })); // case
assert_matches!(iter.next(), None);
});
assert_matches!(iter.next(), None);
}
}